Neurovirulence of the UC-2 and UC-8 strains of bluetongue virus serotype 11 in newborn mice

In vivo and in vitro experiments were done to investigate whether the difference in neurovirulence between the two strains of bluetongue virus 11, UC-2 and UC-8, is based on a different capability to gain access to the brain from the subcutaneous inoculation site or on a different tropism for neural cells. In newborn Balb/c mice subcutaneous inoculation of UC-8 at doses between 10(-0.2) plaque forming units (PFU) and 10(4.8) PFU caused a severe necrotizing encephalitis whereas UC-2 at doses of up to 10(4.4) PFU did not affect newborn Balb/c mice. However, intracranial inoculation of 10(2.4) PFU of either virus strain produced severe necrotizing encephalitis. In vitro both virus strains infected dissociated brain cell cultures similarly. Double labelling immunofluorescent staining with markers specific for neural cells did not reveal differences in the target cells for the two viruses. The difference in neurovirulence between UC-2 and UC-8, therefore, appears to be determined by the ability of UC-8 to infect the brain from a subcutaneous inoculation site.     

我国蓝舌病病毒血清24型毒株的分离与遗传特征分析

掌握云南省蓝舌病病毒(BTV)的活动情况与流行毒株的遗传特征。2012—2015年,在云南省的师宗县、江城县与芒市分别设立3个监控点,进行BTV的分离。自监控动物采集的BTV核酸阳性血液通过"鸡胚-C6/36细胞-BHK细胞"接种的方式进行病毒分离;采用RT-PCR与中和试验进行分离病毒的血清型鉴定;设计特异性引物对分离病毒的Seg-2、Seg-3、Seg-7与Seg-6基因节段进行RT-PCR扩增与克隆测序。2012—2015年,从云南省的师宗县、江城县与芒市分别分离获得3株BTV-24型毒株。分离病毒的Seg-2、Seg-3、Seg-7与Seg-6序列系统发育分析显示:我国毒株的Seg-2与BTV-24型参考毒株聚为一簇,而Seg-6与BTV-10型毒株聚为一簇;我国毒株的Seg-3在系统发生树上划分为"东方型"地域型,Seg-7在系统发生树上形成一个独立于其他地域型的分支。本试验报道了我国BTV-24型毒株的分离与Seg-2、Seg-3、Seg-6与Seg-7序列特征,结果表明,我国BTV-24型毒株的Seg-6基因节段与BTV-10型毒株发生了基因重配;Seg-7具有独特的遗传特征,形成了一个新的Seg-7地域型,暂定为"Chinese topotype"。本试验为进一步开展BTV-24型的流行病学、感染特性与疫苗的研究奠定基础。     

RT-PCR对新城疫病毒强弱毒株的快速鉴定

根据新城疫病毒(NDV)F蛋白基因结构的特点及强、弱毒株F蛋白基因裂解位点的序列差异设计了4条引物,并将其配成3对引物,采用RT-PCR试验对来自鸡和七彩山鸡的9株NDV野毒分离株,F48E8和LaSota 2株标准强、弱毒株进行了快速鉴定;并将RT-PCR鉴定结果与NDV常规致病性试验结果进行了比较。结果表明,RT-PCR试验能够快速将11个参试毒株区分为强毒株和弱毒株,其结果与传统致病性试验测定结果基本一致,该方法可以用于ND的快速诊断和强、弱毒株的快速鉴定。     

The effects of vaccination of Merino ewes with an attenuated Australian bluetongue virus serotype 23 at different stages of gestation

SUMMARY A cell culture attenuated Australian bluetongue virus serotype 23 (BLU23) prototype vaccine was assessed for its effects on pregnant Merino sheep. Seventy-six ewes were vaccinated at 5 different stages of gestation, and the failure to lamb at term was as follows: 35 to 43 days of gestation, 20/36 (56%); 57 to 64 days of gestation, 3/10 (30%); 81 to 88 days of gestation, 3/10 (30%); 109 to 116 days of gestation, 0/10 (0%); 130 to 137 days of gestation, 0/10 (0%). Of 30 ewes vaccinated with a cell culture supernatant fluid control between 35 and 43 days of gestation, 6.7% (2/30) failed to lamb at term. Two ewes vaccinated with BLU23 vaccine between 35 and 43 days of gestation had lambs with hydranencephaly. All other lambs born were clinically normal. Three ewes vaccinated with BLU23 aborted. Two of these were vaccinated between 35 and 43 days of gestation, the 3rd between 81 and 88 days of gestation. Five lambs were born with BLU group antibody. Four of these were from ewes vaccinated between 35 and 43 days of gestation, and 2 of these had hydranencephaly. The fifth was from a ewe vaccinated between 57 and 64 days of gestation. The vaccine did not produce disease in adult sheep, but was a potent cause of early foetal death and to a much lesser extent foetal malformation.     

Molecular cloning of serogroup- and serotype-specific genome segments from bluetongue virus serotype 11

Genome segments 2, 6, 8, and 9 of bluetongue virus (BTV) serotype 11, coding for P2, NS1, NS2, and P6, respectively, were cloned into pUC 8. Sizes of segment-2 and segment-6 clones indicated partial copies (55% and 80% of full length, respectively), whereas segment 8 and 9 clones represented full-length copies. Northern blot hybridizations of the clones to the 5 United States BTV prototypic serotypes (2, 10, 11, 13, and 17) revealed segment-2 clone to be serotype-specific to BTV-11, whereas segment 6, 8, and 9 clones were able to detect all serotypes to varying degrees. All clones failed to detect the related orbivirus, epizootic hemorrhagic disease virus.     

Phagocytic uptake and killing of virulent and avirulent strains of Pasteurella multocida of capsular serotype A by chicken macrophages

The susceptibility of two highly virulent (VP161 and VP138) and two less virulent (VP17 and VP21) strains of Pasteurella multocida to phagocytic uptake and killing by chicken macrophages was compared using in vitro phagocytosis and bactericidal assays. When compared with VP17 and VP21, particularly after they were preopsonised with specific immune serum, VP161 and VP138 were more resistant to phagocytosis by chicken macrophages. The uptake of these bacteria increased following the removal of the bacterial capsules with hyaluronidase. All strains preopsonised with specific immune serum were killed to some extent by chicken macrophages. However, the percentages of killing for VP17 and VP21 were higher than those of VP161 and VP138. When the capsules of VP161 and VP138 were removed, the susceptibility of the bacteria to bactericidal activity of chicken macrophages increased. It can be concluded that the virulent strains of P. multocida were more resistant to phagocytosis and phagocytic killing by chicken macrophages compared with the less virulent strains. The hyaluronic acid capsule was considered to be important in the resistance, but might not be the only factor contributing to the resistance since the less virulent strains of P. multocida also possess capsules.     

Detection of bluetongue virus in bovine fetuses using the avidin-biotin complex immunoperoxidase method

The avidin-biotin complex immunoperoxidase technique was adapted for use in detecting bluetongue virus (BTV) antigens in BTV serotype 11-infected bovine fetuses. Fetuses were infected with BTV serotype 11 at 120 days of gestation and then removed 20 days later by Cesarean section. Blood and tissue samples were collected from each animal and used for virus isolation in embryonated chicken eggs, the immunofluorescent antibody test, and the avidin-biotin complex test. The avidin-biotin complex method successfully identified BTV antigens in both fresh and autolyzed fetal brains. Thus, the avidin-biotin complex immunoperoxidase method has potential as a possible procedure for diagnosing bluetongue disease in aborted bovine fetuses.     

Susceptibility of in vitro produced hatched bovine blastocysts to infection with bluetongue virus serotype 8

ABSTRACT: Bluetongue virus serotype 8 (BTV-8), which caused an epidemic in ruminants in central Western Europe in 2006 and 2007, seems to differ from other bluetongue serotypes in that it can spread transplacentally and has been associated with an increased incidence of abortion and other reproductive problems. For these reasons, and also because BTV-8 is threatening to spread to other parts of the world, there is a need for more information on the consequences of infection during pregnancy. The aim of the present study was to investigate whether hatched (i.e. zona pellucida-free) in vitro produced bovine blastocysts at 8-9 days post insemination are susceptible to BTV-8 and whether such infection induces cell death as indicated by apoptosis. Exposure of hatched in vitro produced bovine blastocysts for 1 h to a medium containing 103.8 or 104.9 TCID50 of the virus resulted in active viral replication in between 25 and 100% of the cells at 72 h post exposure. The infected blastocysts also showed growth arrest as evidenced by lower total cell numbers and a significant level of cellular apoptosis. We conclude from this in vitro study that some of the reproductive problems that are reported when cattle herds are infected with BTV-8 may be attributed to direct infection of blastocysts and other early-stage embryos in utero.     

Superoxide dismutases of virulent and avirulent strains of Brucella abortus

Extracts of Brucella abortus strains 2308,RB51,45/20 and ST 19 had no significant differences in superoxide dismutase (SOD) activity as measured by the epinephrine assay. These B. abortus strains represent smooth, intermediate and rough colony forms. SOD activity was inhibited 60 to 75% by 2 mM KCN and suggests the presence of Cu/Zn SOD. The SOD activities were similar when the strains were grown in trypticase soy broth containing either 0.5% glucose or erythritol. There were two distinct SOD activity bands in native polyacrylamide gel electrophoresis with identical mobilities for each of the strains. When the native gel was stained for SOD activities in the presence of 2 mM KCN, the SOD band that co-migrated with the bovine erythrocyte Cu/Zn SOD activity disappeared. The band of SOD activity that migrated similar to E. coli iron SOD activity was unaffected by KCN. There were no significant differences in either the total SOD or Cu/Zn SOD activities among the strains. As the Brucella strains represent ranges of virulence, it is difficult to associate any primary role for SOD as a virulence factor.     

Experimental infection of bulls and cows with bluetongue virus serotype 20

Bluetongue virus serotype 20 (BTV20) was inoculated intradermally and subcutaneously in 4 bulls and by the intrauterine route in 8 nulliparous cows after insemination at oestrus. Viraemia was detected intermittently between 8 and 21 days after inoculation. Virus was isolated from tissue samples of 2 cows and a bull after slaughter at 14 days and from one bull at 28 days. Group reactive and type specific antibodies to BTV20 were demonstrated from 17 to 27 days after infection. No antibodies were detected in the animals slaughtered at 14 days. No clinical signs of disease were seen during the experiment and no gross or histopathological changes referable to BTV20 infection were observed post-mortem. Because of the viraemia and the production of detectable serum antibodies, gametes from these cattle would be excluded from export.     

Trajectory analysis and bluetongue virus serotype 2 in Florida 1982.

Examination of Northern Hemisphere synoptic charts and computation of backward trajectories indicated that Culicoides infected with bluetongue virus serotype 2 could have been carried on the wind and brought the virus to Florida on the afternoon of August 19, 1982 after leaving northern Cuba the previous evening. Flight would have occurred at a height of 1-1.5 km at temperatures of 15-17 degrees C. The distance of 500 km from northern Cuba to Ona would have been covered in 20 h at an average speed of 25 km h-1. Computation of trajectories indicated that a second electropherotype, Ona B, was unlikely to have been introduced by infected Culicoides.     

Analysis of classical swine fever virus replication kinetics allows differentiation of highly virulent from avirulent strains

To study the replication of classical swine fever virus (CSFV) in cell culture, kinetics of viral plus-strand RNA synthesis, of viral structural and non-structural protein expression as well as of secreted and cell-associated infectious virus were determined. Highly virulent, moderately virulent and avirulent strains that were tested in standardized animal experiments to confirm their virulence were used to search for in vitro parameters allowing the differentiation of strains according to their virulence. No significant qualitative or quantitative differences were found between the strains studied when either RNA replication or protein synthesis were investigated. However, the ratio of cell-associated virus versus secreted virus proved to be considerably lower for the highly virulent strains when compared to avirulent or moderately virulent strains. These data suggest that highly virulent strains of CSFV can be distinguished in cell culture from strains with reduced virulence.     

Detection of bluetongue virus using a cDNA probe derived from genome segment 4 of bluetongue virus serotype 2.

The double-stranded (ds) RNA genome segment 4 of bluetongue virus (BTV) serotype 2 was cloned and used as a serogroup-specific complementary (c) DNA probe for BTV diagnosis. A cDNA representing a 60% copy of genome segment 4 BTV-2 prototype was produced. The specificity of the cDNA probe was determined by hybridizing this probe to a northern blot of dsRNA (separated by polyacrylamide gel electrophoresis) of plaque-purified BTV-2 prototype. This cDNA probe was then used to hybridize to the RNA samples. Because the probe hybridized to all BTV samples but not to epizootic hemorrhagic disease virus samples, it appears to be a group-specific probe that could be used in BTV diagnosis.     

IgE responses to bluetongue virus (BTV) serotype 11 after immunization with inactivated BTV and challenge infection

To test the hypothesis that development of a BTV-specific IgE response plays a role in clinical disease manifestation, the humoral immune response of cattle to inactivated and virulent BTV was studied. Three calves received three sensitizing immunizations of inactivated BTV, 3 weeks apart. The BTV-sensitized animals, two non-sensitized BTV-seropositive and 4 BTV-seronegative control cattle. were challenge-exposed with BTV-11, UC8 strain. All cattle inoculated with inactivated BTV developed group-specific non-neutralizing and serotype-specific neutralizing antibodies. The development of post-challenge-exposure neutralizing antibody titers was inversely correlated with protective immunity. None of the BTV-challenged animals showed clinical disease. The levels of IgE were greatest in the sensitized calves after virus challenge in comparison with control groups. The sequential development, specificity and intensity of virus protein-specific humoral responses were evaluated using immunostaining. After challenge exposure of BTV-sensitized and non-sensitized cattle, total and IgE antibodies reacted consistently within BTV structural proteins VP2, VP5 and VP7. Although no correlation was found between clinical disease and IgE, results add support to the hypothesis that IgE may be involved in the pathogenesis of clinical disease, since infection with BTV causes an increase in serum IgE levels. However, these results suggest that the levels of virus-specific reactivity may be an important factor in determining whether or not clinical disease manifestation occurs.     

Immunologic response of sheep to inactivated and virulent bluetongue virus

Humoral and cellular immune responses of sheep to inactivated and virulent bluetongue virus (BTV) were studied. All sheep inoculated with inactivated BTV developed BTV group-specific nonneutralizing antibodies, as determined by agar-gel immunodiffusion. The development of group-specific, nonneutralizing, complement-fixing antibodies was variable and appeared to be dependent on immunizing BTV serotype, sheep breed, and individual variation. Virus-neutralizing antibodies were never detected after inoculation with the inactivated BTV. In vitro lymphocyte stimulation to BTV soluble antigen was observed with cells from all inoculated Warhill sheep and with cells from 1 of 3 inoculated Suffolk cross sheep. Complement-fixation titers did not appear to correlate with the degree of protection observed, ie, duration of postchallenge-exposure viremia. The development of postchallenge-exposure neutralizing antibody titer was inversely correlated to protective immunity. The development of a response to BTV antigen in the lymphocyte-stimulation test associated most closely with protection. Warhill sheep were afforded better protection, by inoculation with inactivated BTV, to live virus challenge exposure than were the Suffolk cross sheep. Approximately 30% of the inoculated Suffolk cross sheep responded to challenge exposure with intensified clinical signs of blue-tongue, compared with the challenge-exposed control sheep of the same breed.     

Experimental infection of South American camelids with bluetongue virus serotype 8

Bluetongue (BT) is an infectious, non-contagious disease of wild and domestic ruminants. It is caused by bluetongue virus (BTV) and transmitted by Culicoides biting midges. Since 1998, BT has been emerging throughout Europe, threatening not only the na?ve ruminant population. Historically, South American camelids (SAC) were considered to be resistant to BT disease. However, recent fatalities related to BTV in captive SAC have raised questions about their role in BTV epidemiology. Data on the susceptibility of SAC to experimental infection with BTV serotype 8 (BTV-8) were collected in an animal experiment. Three alpacas (Vicugna pacos) and three llamas (Lama glama) were experimentally infected with BTV-8. They displayed very mild clinical signs. Seroconversion was first measured 6-8 days after infection (dpi) by ELISA, and neutralising antibodies appeared 10-13 dpi. BTV-8 RNA levels in blood were very low, and quickly cleared after seroconversion. However, spleens collected post-mortem were still positive for BTV RNA, over 71 days after the last detection in blood samples. Virus isolation was only possible from blood samples of two alpacas by inoculation of highly sensitive interferon alpha/beta receptor-deficient (IFNAR(-/-)) mice. An in vitro experiment demonstrated that significantly lower amounts of BTV-8 adsorb to SAC blood cells than to bovine blood cells. Although this experiment showed that SAC are generally susceptible to a BTV-8 infection, it indicates that these species play a negligible role in BTV epidemiology.     

Infection of rabbits with bovine immunodeficiency-like virus.

New Zealand white rabbits, which had been prepared for inoculation by intraperitoneal treatment with thioglycollate, were inoculated intraperitoneally with bovine immunodeficiency-like virus (BIV). Infected materials from various sources were used including cultured cells and culture fluids, peripheral blood leukocytes from infected cattle and spleen tissue from previously infected rabbits. Virus isolations and serological responses detected by western blotting provided clear evidence that infections had been established in inoculated rabbits and that the spleen was an important site of BIV infectivity. These results indicate that rabbits may be a useful species when testing for BIV infectivity in materials too toxic or highly contaminated to be inoculated directly into cell cultures. Furthermore, rabbits may also be useful in testing effects of coinfections with other bovine viruses on progression of BIV infection and for the initial evaluation of therapeutic regimens designed to suppress or eliminate BIV infections.